CAT3525_C09.qxd  2/8/2005  10:11 AM  Page 285
                       Incineration of MSW                                                         285
                       SUGGESTED READINGS

                       Bartley, D. A., Vigil, S. A., and Tchobanoglous, G., The Use of Source-Separated Waste Paper as a Biomass
                             Fuel, Biotechnology and Bioengineering Symposium, Wiley, New York, NY, 1980, p. 67.
                       Brunner, C.L., Incinerator Systems Selection and Design, Van Nostrand Reinhold, New York, NY, 1984.
                       Bumb, R.R. et al., Trace chemistries of fire: a source of chlorinated dioxins, Science, 210, 385, 1980.
                       Cooper, C.D. and Alley, F.C., Air Pollution Control: A Design Approach, PWS Publishers, Boston, MA,
                             1986.
                       Cross, F.L. and Hesketh, H.E., Controlled Air Incineration, Technomic Press, Lancaster, PA, 1985.
                       Czuczwa, J.M. and Hites, R.A., Airborne dioxins and dibenzofurans: sources and fates, Environ. Sci. Technol.,
                             20, 195, 1986.
                       Cruczwa, J.M. and Hites, R.A., Environmental fate of combustion-generated polychlorinated dioxins and
                             furans, Environ. Sci. Technol., 18, 444, 1984.
                       Drobny, N.L., Hull, H.E., and Testin, R.F., Recovery and Utilization of Municipal Solid Waste, SW 10c, U.S.,
                             Environmental Protection Agency, Washington, DC, 1971.
                       Finnis, P., Heat Recovery Dry Injection Scrubbers for  Acid Gas Control, Proceedings of the ASME
                             Asian–North American Solid Waste Management Conference (ANACON), Los Angeles, CA, 1998.
                       Fricilli, P.W. Impact of EPA’s Air Pollution Control, Proceedings of the 84th AWMA Meeting, Vancouver, BC,
                             Paper No. 91-26.2, Air and Waste Management Association, June 16–21, 1991.
                       Getz, N., How does Waste-to-Energy Stack Up? Municipal Waste Combustion, 1993, pp. 951–965.
                       Gleiser, R., Nielsen, K., and Felsvang, K., Control of Mercury from MSW Combustors by Spray Dryer
                             Absorption Systems and  Activated Carbon Injection, Municipal Waste Combustion, 1993,
                             pp. 106–120.
                       Gorman, P.G., Markus, M. et al., Project Summary-Environmental Assessment of Waste-to-Energy Process:
                             Union Carbide’s Purox Process, EPA-600/S7-80-161, U.S. Environmental Protection  Agency,
                             Cincinnati, OH, December, 1980.
                       Harrison, B. and Vesilind., P.A., Design and Management for Resource Recovery, Volume 2: High Technology
                             — A Failure Analysis, Ann Arbor Science, Ann Arbor, MI, 1980.
                       Hasselriis, F., Refuse Derived Fuel, Ann Arbor Science, Butterworth, Boston, MA, 1966.
                       Hasselriis, F., Optimization of Combustion Conditions to Minimize Dioxin Emission, Waste Manage. Res. 5,
                             311, 1987a.
                       Hasselriis, F., Optimization and Combustion Conditions to Minimize Dioxin, Furan, and Combustion Gas Data
                             from Test Programs at Three MSW Incinerators, J. Air Pollut. Control Assoc., 37, 1451, 1987b.
                       Hasselriis, F., Variability of Metals and Dioxins in Stack Emissions of  Three  Types of Municipal  Waste
                             Combustors over Four  Year Period, Paper No. 95-RP147B.03, Air and  Waste Management
                             Association, San Antonio, TX, 1995.
                       Kenna, J.D. and Turner, J.H., Fabric Filter-Baghouses I: Theory, Design and Selection, ETS International, Inc,
                             Roanohe, VA, 1989.
                       Kisker, J.V.L., A Comprehensive Report on the Status of Municipal Waste Combustion, Waste Age, November
                             1990.
                       Licata, A., Babu, M., and Nethe, L-P., Acid Gases, Mercury and Dioxin from MWCs,Proceedings of the ASME
                             National Waste Processing Conference, Atlantic City, NJ, 1994.
                       Licata, A., Schuttenhelm, W., and Klien, M., Mercury Control for MWCs Using the Sodium Tetrasulfide
                             Process, 8th Annual North American Waste-to-Energy Conference, Nashville, TN, 2000.
                       Orning, A.A., Principles of combustion, in Principles and Practices of Incineration, Corey, R. C., Ed., Wiley-
                             Interscience, New York, NY, 1969.
                       Orvacic, V. et al., Emissions of chlorinated organics from two municipal incinerators in ontario, J. Air Pollut.
                             Control Assoc., 35, 849, 1985.
                       Rigo, H.G. and Chandler, J., Metals in MSW — Where are They and Where Do They Go in an Incinerator?
                             ASME National Waste Processing Conference, Boston, MA, 1994.
                       Rigo, H.G., Chandler, J., and Sawell, S., Debunking Some Myths About Metals, Municipal Waste Combustion,
                             1993, pp. 609–627.
                       Shaub, W.M. and Tsang, W., Dioxin formation in incinerators, Environ. Sci. Technol., 17, 721, 1983.
                       Turner, J.H., Lawless, P.A., et al., Sizing and costing of electrostatic precipitators: Part 1-sizing considerations,
                             J. Air Pollut. Control Assoc., 38, 458, 1988.